CNC machining of medical equipment parts
Medical physiotherapy equipment parts
Medical device engineers need to speed up development and reduce the design risk of their robot exoskeleton. The combination of digital manufacturing technology and automatic quotation enables a highly iterative design process without wasting time to market.
Which material is best for medical applications?
Magnesium alloy: fast heat dissipation, light weight, good rigidity, certain corrosion resistance and dimensional stability, impact resistance, wear resistance, good attenuation performance and easy recycling; In addition, it has the characteristics of high thermal and electrical conductivity, non-magnetic, good shielding and non-toxic.
Aluminum alloy: It has the characteristics of low density, good mechanical properties, good processing properties, non-toxic, easy to recycle, electrical conductivity, heat transfer and corrosion resistance.
Stainless steel: beautiful surface and diversified use possibilities; Good corrosion resistance, longer durability than ordinary steel; Good corrosion resistance; High strength, so the possibility of using thin plates is great; It is resistant to high temperature oxidation and high strength, so it can resist fire.
Micro resolution: Magnesium alloy is a proprietary material developed by the research institute for the construction of complex product parts, the size of which is as small as 0.025mm. .
Microfluidics: Watershed (similar to ABS) and Accura 60 (similar to PC) are transparent materials that can be used for microfluidic parts and transparent parts, such as lenses and housings.
Medical alloy: Between machined metal and die-cast metal and sheet metal, there are more than 20 metal materials to choose from, which can be used for medical parts, instrumentation and other applications. Metals such as titanium and inconel have temperature resistance, while various stainless steel materials have corrosion resistance and strength.